Process and apparatus for packaging articles



Sept. 8, 1942. w'. s. cLoupf 2,295,335

PROCESS AND APPARATUS FOR PACKAGING ARTICLES v Fil ed Aug. 3, 194a 13 Sheets-Sheet 1 INVENTOR.

. Mam/725; 610m BY 0Q; 6485* ATTORNEY.

p 1942- -w. s. CLOUD 2,295,335

PROCESS AND APPARATUS FOR PACKAGING ARTICLES Filed Aug. 5, 1940 '15 Sheets-Sheet 2 Q e 449 Wm, 1 v4 ATTORNEY.

Sept. 8, 1942. w. s. CLOUD PROCESS AND APPARATUS FOR PACKAGING ARTICLES Filed Au 3, 1940 13 Sheets-Sheet 3 INVENTOR. a/mms. 620m a. 2%

ATTORNEY.

Sept. 8, 1942. wi s, CLOUD A PROCESS AND APPARATUS FOR PACKAGING ARTICLES Filed Au 3, 1940 13 Sheets-Sheet 4 I N VENTOR.

Mala/73.50am A ug 0K, 9%"

' ATTORNEY.

.- w. s. CLOUD Y PROCESS AND APPARATUS FOR PACKAGING ARTICLES Sept. 8, 1942.

Filed Aug. 5, 1940 13 Sheets-Sheet 5 mhm m ms RQ NNN Qwk www m5 INVENT OR.

ATTORNEY.

ANN

\ w mum septis, 1942.

w. s. CLOUVD PROCESS AND APPARATUS FOR PACKAGING ARTICLES Filed Aug. 5, 1940 INVENTOR.

13 Sheets-Sheet 6 BY W a mm mm Sept. 8, 1942.

Fil ed Aug. 3, 1940 W. S. CLOUD PROCESS AND APPARATUS FOR'PACKAGING ARTICLES 13 Sheets-Sheet 7 INVENTOR.

ATTORNEY.

Sept. 8, 1942. w. s. CLOUD 2,295,335

PROCESS AND APPARATUS FOR PACKAGING ARTICLES Filed Aug. 3, 1940 v 15 Sheets-Sheet 8 INVENT OR.

ATTORNEY.

Sept. 8, 1942. I w. s. CLOUD 2,295,335

PROCESS AND APPARATUS FOR PACKAGING ARTICLES Filed Aug. 5, 1940 13 Sheets-Sheet 9 ATTORNEY.

Sept. 8, 19422.- w. CL OUD PROCESS AND APPARATUS FOR PACKAGING ARTICLES Filed Aug. 3, 1940 13 Sheets-Sheet 1o IN VENTOR.

yaw/M25 67am BY 0?. 0

ATTORNEY.

. QIIIII'IIIIIIIA 71,111,111

Sept. 8, 1942.

W. S. CLOUD PROCESS AND APPARATUS FOR PACKAGING ARTICLES Filed Aug :5, 1940 15 Sheet-Sheet 11 I MNQ Ill v MQN INVENT OR.

Wan/2Z5 Clam ATTORNEY.

Sept. 8, 1942. w. s. CLOUD PROCESS AND APPARATUS FOR PACKAGING ARTICLES Filed Aug. 5, 1940 13 Sheets-Sheet l2 INVENTOR. v Q/(Z/Zd/iii 010m BY %v av ATTORNEY.

p 8, 19 2. w. s. CLOUD I 2 295,335

PROCESS AND APPARATUS FOR PACKAGING ARTICLES Filed Aug. 3, 1940 l3 Sfieets-Sheet-IS gr/(d/ j '/5 5 INVENTOR.

ATTORNEY. A

Patented Sept. 8, 1942 UNITED STATE PROCESS AND APPARATUS FOR PACKAG ING ARTICLES William S. Cloud, Wilmette, Ill.

Application August 3, 1940, Serial No. 350,986

Claims.

This invention relates to improvements in the process and apparatus for packaging articles of various sizes and shapes, such as candy bars, cookies, cigars, and similarobjects, and includes arranging the articles for packaging into receptacles, arranging the receptacles for receiving the articles, inserting the articles into the receptacles and closing the same.

The process and machine will be described and illustrated with reference to the arrangement and packaging of candy bars, but it will be under stood that its utility is not limited to this particular field.

In the production of candy bars and other small articles to be sold at retail for as little as one cent or five cents per unit, industry is constantly struggling with the problem of expense involved in placing such articles in individual packages. One of the difficulties often encountered is the irregular shape, size, and weight of the various articles withina given group or class of products. This is particularly apparent where such articles are covered with material such as nuts, or other irregular substances.

This invention has as one of its objects, the providing of fast and economical means for packaging such articles and, in actual practice, upwards of two hundred fifty thousand units have been packaged in a single eight hour working day by one of these machines. More particu larly, one of the objects of the invention is to arrange the articles to be packaged iupredetermined order and to deliver a definite number or quantity thereof, in order, to the mouths of receptacles adapted to receive and hold the same.

A further object is to provide means for auto-j matically and continuously feeding paper tubelike receptacles, either singly or joined together in sheets of two or more, to a folding, crimp- States Letters Patent Number 2,190,823issued to applicant on February 20,1940.

A further object of this invention is to provide automatic means of lateral support for a series of joined paper receptacles while articles of merchandise are placed therein. thereby avoiding the possibility of rupture of the receptacles and facilitating the filling operation.

A further object is to provide. automatically adjustable means for guiding articles into the open ends of a series of joined paper receptacles.

A further object is to provide means for folding and securing the open or top ends of a series of joined paper receptacles after articles of merchandise have been placed therein, and to. de-

liver the filled and closed receptacles to a ded more packages which are not joined. It is obvious ing, and filling mechanism, the delivery of said receptacles being in timed relation thereto.

A further object of my invention is to fold and secure one end of each receptacle in a series or sheet of joined paper receptacles, to hold the same in substantially vertical position with the unfolded end up, to open'the receptacles, and

to deliver the opened receptacles to a position for receiving the articles to be packaged.

Various types anddesigns of paper tube-like receptacles can be used in practicing this invention, although. it is deemed preferable to use a type similar to that referred to in United States Letters Patent Number 2,180,338 issued to applicant on November. 21, 1939, and in United that the advantages of speed and economy are best realized by presenting, filling, and closing a plurality of receptacles simultaneously.

Other objects andiadvantages'of the invention will appear hereinafter.

A preferred embodiment of the invention selected for purposes of illustration is shown in the accompanying drawings, in which,

Figure 1 is a diagrammatic view of the packaging operation, including 7 stations indicated as A to G inclusive.

Figure 2 is a side 'elevation'of the complete machine, shown from the left side.

Figure 2A is a side elevation of the aligning I Figure 7A is a sideele vation of a portion of the machine illustrated in Figure '7.

Figure 8 is a section ofchute guide rods taken on line 8-8 of'Figure 7, illustrating guide rods in normal position.

Figure 9 is aview similar to Figure 8, showing guide rods in actuated position.

package holding and top crimping mechanism.

Figure 14 is a cross section taken on line Il-Il of Figure 7. v

Figure 15 is a section taken on line I5I5 of Figure 14.

Figure 16 is a section taken on line I6I6 of Figure 14. 15

Figure 1'7 is an elevation of the mechanism employed to close the packages and to bring the top crimping racks into operating position.

Figure 18 is an elevation of the mechanism employed to operate the top crimping racks, as viewed from the center of the machine looking toward the right side.

Figure 19 is a section through the rocker arm shafts taken on line I9--I9 of Figure 'ZA.

Figure 20 is a section taken on line 28-20 5 of Figure 17.

Figure 21 is a plan section taken on line 2 I-2I of Figure 20.

Figure 22 is an enlarged detail section oi Figure 23 is a fragmentary view of the top crimping mechanism illustrated in Figure 22 and shown in changed position.

Figure 24 is a view similar to that of Figure 23, showing top crimping mechanism in final operating position.

Figure 25 is a detail of rack guide arms.

Figure 26 is a horizontal section taken on line 26-26 of Figure 25.

Figure 27 is a fragmentary section of crimping rack and chain. a

Figure 28 is a section of package supporting bracket taken on line 28--28 of Figure 26.

Figure 29 is an enlarged detail of a portion of racks I86 and I81.

Figure 30 is a perspective illustrating serrated faces of rack teeth.

Figure 31 is a face view of a plurality of joined paper receptacles.

Figure 32 is a plan view of receptacles shown 50 in Figure 31.

Figure 33 is a view similar to Figure 32, showing receptacles expanded.

Figure 34-is a view similar to Figure 33, showing pieces of candy inserted into receptacles. 5

Figure 35 is an edge view of a single tube or receptacle.

Figure 36 is a view similar to Figure 35, showing the bottom edge of receptacle folded and. crimped.

Figure 37 is a side view of a single receptacle in expanded position.

Figure 38 is a view similar to Figure 37, broken away to show a piece of candy inserted therein.

Figure 39 is a completed package containing a piece of candy.

Reference is first made to Figure 1, where a general diagrammatic illustration is made of the entire packaging operation. It will be noted that certain stations have been designated by letters A to G inclusive to facilitate reference to these '7 steps of the operation.

In order that the detailed description of my invention may be more easily understood, I have provided a general outline thereof, as follows. 75

Candy bars ll are delivered to the machine by.conveyor belt 42 passing over pulley 43, from which belt they are dropped upon a grooved chute H where they are held momentarily in aligned relation by stop pins 665 projecting through apertures 588 in grooves 661 of said chute (Figure 23). Stop pins 565 are actuated by arm 568 and cam 554 in timed relation to chains 86 carrying aluminum cups 45 so as to release one row of candy bars 4| for each row of cups l5.

The pieces of candy are conveyed by cups 45.

on chains 46 to'a point immediately above grooved chute I3, where chains 86 pass around sprockets 48 causing cups 5 to be inverted, the candy sliding therefrom and falling to chute I3.

A supply of paper tube-like receptacles I8, arranged in sheets or webs (Figure 31), is placed in vertical stacked position on conveyor belt I8 which moves toward the left from pulley 421 (Figure 1). As belt I 9 passes over pulley 828, receptacles -I8 drop to conveyor belt 28 which also travels toward the left and at a speed greater than that of belt I3, the difference in speed of the 2 belts, together with the fact that the last few 'sheets of receptacles carried on belt 28 lean against the top portion of the most advanced sheets on belt I9, causing the bottom edges of receptacles I8 to move forward faster than the top edges thereof. This results in each sheet of receptacles being forced partially underneath the immediately preceding sheet as belt 28 carries the same forward to stop 488 which prevents further forward movement and causes the sheets to be stacked, one on top of another, with each added sheet being fed into the stack at the bottom thereof.

From this stack each sheet is lifted'by an automatic suction feeding device of standard construction, including suction fingers 488 and vacuum contact openings 26, and is released from such' feeding device in such position as to be in contact with driven roller 21 turning in counterclockwise direction, which pushes sheets I8 across transfer plate 33 to conveyor belt 2| which carries the sheets of receptacles toward the left until a-predetermined portion of receptacles I8 has passed beyond the path of downward travel of blade 83 at station A.

Blade 88 is lowered until it strikes a sheet of receptacles I8 and forces the same downward into a space between two crimping and holding racks carried by chains I28.

The downward force exerted by blade 88 on the forward edges of receptacles I8 causes the raising of the rear edges thereof, and the release of blade 88 leaves receptacles I8 in a substantially vertical :position with the bottom edges thereof folded, crimped, and held by the crimping and holding racks. Chains I28 carry receptacles I8 from station A to station B where compressed air passes from manifold 8 through nozzles 8 downward to receptacles I8. Above each of the receptacles comprising one sheet, a separate nozzle 3 is located. The discharge of compressed air over the paper receptacles causes them to be opened, in which condition they are carried by chains I28 to station C where each receptacle is positioned below one of the grooves of chute I3, down which pieces of candy 4| slide, one piece being guided into each paper receptacle. The

receptacles are maintained in open position during the filling operation at station C by compressed air passing from manifold 80, through nozzles I8 which are suspended above station C.

Chains I28 carry each sheet of receptacles I8 tures 568.

'from station C to stations D and E, which are idler stations, to provide for inspection of the filled packages. Any suitable number of such idler stations may be provided.

From station E, chains I20 carry each sheet of receptacles I8 to station F where afolding and crimping mechanism is lowered over the upper ends of the series of joined receptacles and said ends are there folded and crimped, closing each package. The top folding and crimping mechanism is then released and chains I20 carry the filled packages toward station G. As chains I26 pass around sprockets I22, the crimping and holding racks open and the movement of chains I20, together with the force of gravity, causes the filled packages to fall forward upon spacer plate 3 at station G. At this point a paddle wheel blade supported by arms 304 and caused to rotate in opposite direction to sprockets I22 comes in contact with each sheet of filled receptacles I8 and forces the same across plate 3 to conveyor belt 3I5 which carries said filled receptacles to of articles per square foot of said conveyor belt may also vary from minute to minute. Where the supply increases or decreases materially for any extended period of time, means are provided to regulate the speed of the packaging machine accordingly. 7

Reference is madeto Figures 2A and 23, where chute 44 is mounted on longitudinal support members 4 by means of angles 510 and extends at an angle of approximately 45 from the discharge end of conveyor belt 42 to a position immediately above the plane of movement of cups 45 on chains 46. Chute 44 embodies a series of concave grooves 561 adapted to receive said pieces of candy 4| in longitudinal alignment.

L-shaped arms 558 are pivotally mounted on pivot screws 563 which extend through angles 51!]. Cross member II consists of a fiat metal strip mounted upon L-shaped arms 558. Midway between arms 558 fiat pin 564 is rigidly located an aperture 568 adapted to permit pin 565 to extend therethrough. v

Cam 554 is mounted on cross shaft 32 at a point adjacent pin 564 and is adapted to engage said pin and thereby actuate arms 558 so as to cause stop pins 565 to move in and out of aper- Shaft 32 carries sprocket 555 driven by chain 556 from sprocket 560 mounted on shaft 56I. Coil -spring I96 extends from angle iron support member 551 to one of L-shaped arms Some may be positioned crosswise of the belt and others may be lengthwise. The supply 558 and is adapted to hold pin 564 in contact with the peripheral surface of cam 554. a

, The comparative size of sprocket 555 with sprocket 560 is such that one complete revolution of cam 554 occurs while cups 45 are advanced one cup length by chains 46. In this manner stop pins 565 are actuated in timed relation to the move-' ment of cups 45 so as to release one row of articles 4| for delivery to each row of said cups. It will be understood that inclinedgrooved chute 44 is so situated with reference to cups 45 that the grooves of the chute are in longitudinal alignment with said cups 45.

Cups 45 are arranged in rows separated by spaces 5|, each row thereof consisting of a series of grooves in a metal plate rigidly mounted on chains 46 by bolts I0 passing through plates 41 (Figures and 13). The length of the grooves or cups 45 should be approximately that of the article to be packaged and the number in each row may be varied from one to any convenient number. For purposes of illustration. I have shown cups or grooves in each row.

Chains 46 pass around sprockets 48 mounted on shaft 56| at the feed end of the machine and pass around driven sprockets 49 mounted on shaft 56 in bearings I29 bolted to supports I33 by bolts |3I at a position approximately over grooved chute I3. -As chains 46 move from sprockets 48 toward sprockets 49 they are supported for the entire distance by angle iron tracks 4, mounted .on channel irons I39 extending in transverse relation thereto. Irons I39 are rigidly mounted on support members I33 which extend longitudinally from a position approximately beneath sprockets 48 to a position approximately beneath sprockets 49, said angle irons I33. being mounted on standards 2 and 3 mounted on frame I.

Frame I is of customary cast construction and is adapted to be rigidly fixed to a wooden or concrete floor. Standards 3 are located forward from standards 2 and serve an additional purpose hereafter explained.

Cups are carried around sprockets 49 in an arc of 180, during which they go from a horizontal upright position to a vertical and finally to an inverted horizontal position. As the angle to which the cups'are tilted increases, candy articles 4|, by reason of both gravity and centrifugal force, are moved forward in said cups and also downward toward grooved chute I3.

In the absence of provision of means to retain said articles 4| in said cups 45 until a proper point of release is reached, the candy or other articles will be thrown from or will drop out of cups 45 at various angles and at-various times, thereby 6| mounted in slots 66 and 61 in side plates 65 by studs 63 and 64, and held in adjusted position by lock nuts 68 and 69, the outer surface of chains 59 being in contact with and driven by sprockets 62 mounted on shaft 50, said contact with sprockets 62 being limited to a portion of the periphery thereof (Figure 10).

Chains. 59 are provided with links comprised in part of angular side plates 58 (Figure 13) to which sleeve supporting rods 53 are mounted by bolts II. Rods 53 are provided with a thick and soft cover made of rubber or other suitable .ma-

ends of each series of cups 45 so as to retain articles 4| in said cups for a predetermined period of time and until said cups reach apredetermined position for discharge of their contents.

Figure 11 illustrates the: manner in which-sleeve 52 retains articles 4| in cups 45 while Figure 10 indicates sleeve 52 in a more advanced operative position and at a point just prior to that of release. lower idler discs 6|. the more advanced portion of the sleeve is drawn away from articles 4|. This separation is accentuated by the course of travel of cups 45 around the lower portion of sprockets 49, and effects an instantaneous release of the contents of a given row of cups 45, which release occurs when cups 45 are in alignment with the grooves of chute 13.

The release mechanism is partially covered by sheet metal housing 12, mounted on side plates 65.

Below and forward of sprockets 49, grooved chute I3 is rigidly mounted in semi-vertical position by stud bolts 84 to side plates 65 by means As rods 53 carry sleeve 52 around the,

into the machine are placed in vertical stacked position (Figure 1) on conveyor belt l9 which passes over driving pulley 42'! mounted on shaft 425 in bearings 4 3| attached to frame I and over idler pulley 428 mounted on shaft 429 in take-up bearings 435. Pulleys 421 and 428, as illustrated in Figure 1, rotate in counter-clockwise direction, thereby causing receptacles |8 to be moved toward filling station C of the machine.

Receptacles l8 are held in stacked position on belt |9 by backstop and side wall guide plate 38 rigidly fixed to main frame I and disposed along the left side of belt l9 (Figure 2). When sheets or strips of empty receptacles l8 (Figure 31) areplaced on belt |9 the ends or edges thereof on one side are preferably in contact with side wall 38. Backstop 40 supports the rear portion of the stack of empty receptacles in a manner similar to that of a bookend.

0n shaft 426 located below and forward of pulley 428, driving pulley 438 is mounted in such position that a portion thereof is directly below pulley 428. Conveyor belt 20 passes around pulley 430 and also idler pulley 432 mounted on shaft of extension 83, and by bolts 86 to plates 65 and support members I33, and is provided with an angular portion 15, and grooves 14 disposed between raised portions 88, said grooves corresponding in depth, width, curvature, and alignment to the grooves in cups 45. Chute 13 is provided with rods 16 and TI rigidly mounted in and extending from the lower end thereof and being so placed as to constitute a rod-like continuation of said grooved, chute, as illustrated in Figures 8, 9, 10 and 13. v

Rods I8 and 19 are, by means of U bends at the upper ends thereof, pivotally and individually mounted in annular grooves 8| in the surface of cross rod 88 extending transversely between side plates 65, the ends of cross rod 88 being threaded to receive nuts 82 holding said rod in side plates 65 (Figure 13), rods 18 extendin downward from the rear side of cros rod 80 and rods 19 extending downward from the frontside thereof, said rods 18 and 19 being suspended in approximately vertical position in front of chute l3 and being adapted to yieldably contact and guide articles 4| as they descend along chute 13 of cups so as to reduce the space between said cups and grooved chute 13 as said cups are carried beyond the top of said chute, thereby providing means for dislodging from cups 45 any articles which might remain therein.

Empty packages or receptacles |8 to be fed 433 and is adapted to receive empty receptacles l8 as they are delivered from belt |9. Belt 20 travels in similar direction to belt l9, although at greater speed, the difference in speed together with the fact that the last few sheets of receptacles l8 on belt 20 lean back against the top portion of the most advanced sheets'on belt I 9 causing'the bottom edges of said sheets to move forward momentarily faster than the top edges thereof, causing said sheets to be positioned on belt 28 with each sheet being partially underneath the immediately preceding sheet, in which relative position said sheets are carried forward to the discharge end of belt 20 where they are brought into contact with stop member 409 consisting of a rectangular shaped pipe mounted by cross bracket on frame I, causing said sheets to ,be retained in stacked relation on the forward end of belt 20.

Stop member 409 is provided with a series of air vents (not shown) adjacent said stacked sheets through which compressed air passes into said stack of sheets in sufficient volume to partially separate the uppermost two or three sheets from the balance of the stack and thereby to assist in the removal thereof from said stack one at a time.

Conventional control mechanism is provided so that-belts l9 and 20 are actuated only when the quantity of stacked sheets |8 adjacent stop memher 489 reaches a predetermined minimum level,

the stack at the discharge end of belt 20 by an automatic suction feeding device of standard construction including segments 22 pivotally mounted on shaft 389 and containin air passages 25 for vacuum delivered from pipe 24 and with outlets 26 at sheet contacting surfaces,-

which suction device lifts said top sheet by said vacuum, and by means of partial rotation of shaft 389 feeds said. sheet between positively driven roller 21 mounted on shaft- 366 and idler roller 28 mounted on arm 29 which is pivotally mounted on shaft 30 and held against roller 2'! under tension of spring 3|.

Filler plate 33, rigidly mounted by brackets to frame I, is disposed between the uppermost surfaces of roller 2! and roller 368 and is adapted to provide support for sheets I8 as they pass from rollers 21 and .28 to conveyor belt 2I which passes around drivingpulley 368 mounted on mined manner for. presentation to the holding.

and crimping mechanism hereinafter described. Generally speaking, the holding and crimping to each other as to adjust to a predetermined extent the amount of space II5 between racks I06 and I01 as they-pass from underneath blade 89 forwardly to station F.

As chains I20 pass from sprockets I22 to sprockets I2I, guide arms MI and I49 are partially supported by fiat iron tracks I59 rigidly mounted on frame I. From a point below sprockets I2I, tracks I59 are curved upward in conformity to the curve of sprockets I2I to a point adjacent the top of said sprockets (Figure where said tracks are rigidly-fixed to frame I by bolts I93 and I94 through brackets I92, said mechanism, as illustrated, consists of 2 endless chains adapted to travel in parallel relation around 2 pairs of sprockets, a number of the links of said chains being provided with side plates upon which are mounted holding and crimping racks or cross members extending transversely between and beyond said chains and adapted to receive and hold empty receptacles in predetermined position for being filled, and, in cooperation with a vertically moving blade, to fold and crimp the lower ends of the same, and to carry the filled receptacles to a proper position for the folding and crimping of the upper ends thereof and to carry the filled and completely closed receptacles to a point of discharge from the machine.

As illustrated in Figure 7, chains I20 pass around sprockets I2I mounted on shaft I23 adapted to rotate in bearings 22I attached to frame I and sprockets I22 mounted on and drivcurved extension of tracks I59 being adapted to' hold triangular plates I86-in predetermined retarded position until said plates reach the top of sprockets I2I. I

Holding and crimping racks I06 and I 01 are of gear rack-like construction, being mounted on chain I20 in such manner as to enable teeth II6 of racks I06 to be disposed opposite spaces II1 between teeth II6 of racks I01, the faces II8 of teeth I I6 being serrated.

' Racks I06 and I01 are so mounted on chains en by shaft I24 adapted to rotate in ball bear- 'ing pillow blocks I03 bolted to frame I (Figure 5) said sprockets as shown in Figure '1 (from left side) turning in counter-clockwise direction. In predetermined spaced relation, holding and crimping racks I06 and I01 are rigidly mounted on chains I20 by means of bolts I26 through U- shaped plates I25 (Figure 27) mounted on pins I21 and held in position thereon by cotter pins I28.

The holes in racks I01 through which bolts- I26 pass are elongated so as tmpermit movement of racks I01 forward or backward with relation to rack I06, thereby decreasing or increasing space II5 therebetween, as proper adjustment may require.

Outwardly from points of mounting on chains I20, racks I06 and I01 are mounted on guide arms MI and I49 respectively (Figure 26) by means of bolts I42 and I50. Guide arms I4I include forked extensions I43 and I44 in which rollers I45 and I46 are rotatably mounted on pins I41 and I48. Guide arms I49 include forked extensions I5I and I52 in which rollers I53 and I54 are rotatably mounted on pins I55 and I56. As. guide arms MI and I49 are moved from station A to station F (Figure 1) they pass along -lower tracks I51 consisting of strips of flat iron rigidly mounted on frame I and extending from a position approximately above shaft I23 to a positionapproximately above shaft I24 (Figure '7) i and along upper tracks I58 consisting of strips of fiat iron rigidly mounted to frame I- and extending from a position immediately forward of' same.

I20 that when said racks are carried around sprockets I2I space I I5 is sufficiently increased to enable a predetermined portion of receptacles I8 to be inserted between opposite faces of teeth II6 of said racks at station A. I As chains I20 carry said racks from station A to station B guide arms MI and I49 engage upper tracks I58 and lower tracks I51, causing space II5 to' be sufiiciently decreased to enableteeth II6 of said racks to cooperatively engage receptacles I8 in firm relation, thereby crimping and holding the Figure 36 illustrates the first crimp II9.

Adjacent each of the ends of racks I01, a triangular plate member I86 is pivotally mounted on pin I81 extending through 5101; I85 in bracket I83 rigidly mounted to rack I01 by screw I84. Extending between opposite triangular plates I86 mounted on racks I01 is a channel shaped member I88 rigidly mounted by rivets I89 to the uppermost portion of said plates I86 (Figures 13 and 28).

Rigidly mounted by screws I40 on racks I06 and extending substantially the entire length thereof are angle iron stop members 35 adapted to contact the forward edge of each series of receptacles I8 and to limit the forward movement thereof as said receptacles are fed from belt 2| across teeth H6 and space H5 at station A (Figure l0) Immediately forward from the discharge end of belt 2| and in approximately the same plane, transfer plate 34 is pivotally mounted on pintles 36 and yieldably held against stops 55 (Figures 6 and 10) by spring 31 so as to permit racks I06 and I01 and stops 35 to pass thereunder while in contact therewith. As sheets of receptacles I8 are discharged from belt 2I they slide across plate 34 to stop 35 mounted on rack I06. In this position, a predetermined portion of receptacles I8 is placed beyond the downward path of travel of blade 89 at station A,

' Blade 89,- consisting of flat sheet metal having its'lcwer edge sharpened, is slideably mounted blade 89.

between the rows of teeth II6 of racks I06 and I01.

Inwardly from guide blocks I09 inverted U members 95 are rigidly mounted by set screws 96' and 91 (Figure 12) to cross shaft 94, the forked extensions of which U members are adapted to extend downward over but not in contact with Springs 98 and 99 are mounted by bosses I and IOI within U members 95 in horizontal opposed relation on either side of and in yieldable contact with shield-like reinforcement members I02 rigidly secured to the ends of blade 89 by rivets I04 (Figure 12), and are adapted to permit blade 89 a limited pivotal movement on shaft 94 by means of collars 9|, thereby making possible the vertical alignment of blade 89 with space II 5 between teeth 6 of racks I06 and I01 as shield members I02 descend into grooves I05 between the opposite ends of racks I06, I01 (Figure 6).

Rigidly mounted on shaft 94 by bolts and lock nuts I69, I10, and between U members 95 and slide blocks'l09 are arms I68 extending'forward horizontally and adapted to contact arm extensions I61 of screen flap mechanism described hereinafter.

Blade 89 is moved vertically in traclm I08 by connecting rods 522 extending through sleeves 524 which are threaded to bearings 525 carrying shaft 94. Disposed around the upper portion of connecting rods 522 are coil springs 530 between washers 532 and nut 53I on the end of rods 522 and plug 529 of sleeve 524, said springs adapted to provide cushion means for rods 522 on the down stroke thereof should blade 89 meet an obstruction before the normal down stroke is completed (Figure 14).

Bearings 525 are held in proper position on shaft 94 by bolts 526, washers 521, and collars 528. Connecting rods 522 are actuated by means hereinafter described.

As illustrated in Figure 10, curved stop member III, consisting of sheet metal or other suitable material, with roughened surface H3, is rigidly mounted by clip angles II2 to rearmost fork extensions I34 of standards 3 at a point above and to the rear of the point of contact between blade 89 and receptacles I8 at station A, stop member III being adapted to prevent re ceptacles I8 from being withdrawn from space II5 between racks I06 and I01 as blade 89 is raised therefrom (Figure 10).

Located forward from standards3 and extending transversely for the entire width of the machine, air manifold 8 is rigidly mounted on standards I60 by means of rings I80, set screws 202 through said rings, threaded collars I8I extending downward from said rings, pipe support members I18 screwed into threaded collars I8I and slideably mounted in standards I60 and fixed in adjusted position by set screws I19 (Figure 13).

rect compressed air from manifold 8 downwardly to the unopened ends of receptacles I8 held thereunder in substantially vertical position in racks I06, I01, and yieldably supported by screen flaps I65, I66 (Figure 10).

Screen flap members I65, I66 are pivotally mounted to the inside of standards I60 by arms I6I, I62, welded to gears I63, I64, rotatably mounted on stud bolts I14, I15 which are anchored horizontally to standards I60, said gears being mounted in engaged relation. Flap members I65, I66 are constructed of suitable wire mesh, as illustrated in Figure 13, and are rigidly mounted on arms I6I, I62, by means of rivets I16, I11. Rear arms I6I include extensions I61 disposed at right angle to said arms, said extensions being adapted for engagement with arms I68 attached to cross shaft 94 as blade 89 is raised.

Coil springs I1I are attached to arms I6I, I62, by pins I12, I 13, located immediately adjacent studs I14, I15, on which gears I63, I64, rotate. When extensions I61 of arms I6I are in horizontal position, the tension of springs I1I holds arms I6I and I62 in'yieldable vertical position thereby bringing screen flaps I65, I66, into position for yieldably supporting empty receptacles I8 immediately before and during the opening of said receptacles by compressed air discharged from nozzles 9.

As arms I 68 move upward with blade 89, they engage arm extensions I61 causing the same to move from horizontal to substantially vertical position during which operation the upward movement of extensions I61 is aided by the tension of springs I1I after pins I12, I13, are elevated above the center of gears I63, I64. The upward movement of extensions I61 is limited by means of stop pins I82 extending horizontally from standards I60. The movement ofextensions I61'to a substantially vertical position causes arms I6I, I62 to beraised to a substantially horizontal position at which time a new sheet of empty receptacles I8 is brought into predetermined position beneath nozzles 9 by means of racks I06, I01, mounted on chains I20.

As blade 89 is moved downward arms I68 contact arms I6I and cause the same to be returned from a substantially horizontal to a substantially vertical position, said movement of arms I6I, I62, being aided by the tension of springs I1I after pins I12, I13, are lowered below the center of gears I63, I64 (Figure 10). This operation occurs atstation B (Figure 1).

Baille plate 56 is vertically mounted on collar' extension plates 90' and baffle plate H4 is vertically suspended from' angle iron supports I33 at I a position above and forward from the plane of movement of blade 89, said baflle plates being adapted to cooperatively deflect air discharged out of nozzles 9 from empty packages on belt 2I (Figure 10). v

Extending downwardly at an angle from th inside edges of tracks I51 and immediately forward from station B, are track extensions I adapted to engage triangular plates I86 as racks I06, I01 are moved by chains I20 from station B to station C, thereby causing said triangular plates to be elevated from horizontal to vertical position with cross member I88 in elevated position and in predetermined positive supporting engagement with receptacles I8 at station C (Figure 10). 'From this point forward to the end of tracks I51, plates I86 are maintained in elevated .position by continued engagement with said tracks.

As each rack I06 is brought to rest at station C below chute 13 it contacts flap 2 comprising an inverted U-shaped rod member fixedly mounted inwardly from chains I 20, in vertical openings 2I3 of cross shaft 2I2 and adapted to pivot with said shaft which is carried in bearings 2I8 mounted on frame I. The lower ends of flap 2, extending through holes 2I3 in shaft 2| 2, are threaded to receive nuts 2| 5. Adjacent bearing2l8, collars 220 are provided to prevent side play in shaft 2I2 (Figure 13).

As illustrated in Figure '10, the side arms of flap member 2| I are curved so as to fit around the forward edge of each rack I06 in such manner as to cause metal rings 2I1 mounted on horizontal portion of said flap member to contact asheet of receptacles I8 in predetermined manner intermediate the joined receptacles, thereby lending support to receptacles I8 as candy articles 4| descend grooved chute 13 into said receptacles without interfering with the means provided for maintaining said receptacles in open position.

Arm 222 is rigidly mounted on one end of shaft 2I2 by means of pin 223 (Figure 13) Coil spring 224 is looped through a hole in one end of arm 222 and is anchored on post 225 mounted on frame I (Figure 2), and is adapted to actuate arm 222 and shaft 2I2 so as to maintain flap 2 in yieldable contact with the forward edge of each rack I06. As each of said racks I06 is moved forward on chains I20 flap 2H is forced from a substantially vertical position to a substantially horizontal position thereby permitting racks I06, I01, to pass over said flap, after which the tension of spring 224 actuates arm 222 and shaft 2I2 causing flap 2I I to return to its vertical position.

Air manifold 8a extending transversely for the entire width of the machine is rigidly mounted on standards 204 by means of rings 20 I, set screws 203 through said rings, and by threaded collars (not shown) similar in .structure to collars I8I supporting manifold 8 heretofore described. Standards 204 are screwed into floor flanges 205 rigidly mounted on frame I by bolts 206 (Figure 10).

Threaded nipples I99 are mounted at an angle in threaded openings in the underside of manifold 8a, and are adapted to engage threaded elbows I98, in the lower ends of which are screwed nozzles I0 in substantially vertical position and in predetermined spaced relation, said nozzles being adapted to direct compressed air down wardly from manifold 8a to the top of open receptacles I8 held in substantially vertical'position by racks I 06, I01, cross member I88, and flap 2I1 1 The discharge of compressed air from nozzles I0 is adapted to maintain receptacles 18 in open position in timed relation to the passage of candy articles 4| down chute 13 into said receptacles.

. filled receptacles. The upper crimping mecha- This operation takes place at station C (Figure 10).

Air manifolds 8, 8a, are connected by U member I I, as illustrated in Figures 4, 5, and 10. Electric light 208 and reflector 209 are mounted in horizontal position underneath manifold 8a by being clamped to standards 204 in customary I manner. Shield 201 is mounted on manifold 8a by set screws H0 and is adapted to provide a proper cover therefor (Figure 10).

From station C, racks I06, I01, and filled receptacles I8, are carried forward by chains I20 to idler stations D and E (Figure 1) where no additional mechanical operation takes place, although opportunity is thus provided for inspec-' tion and examination of the filled receptacles.

From idler station E the receptacles I8 are moved by racks I06, I01, and chains I20 forward to station F where means are provided for closing and crimping the upper, or open ends of the nism at station F comprises crimping rack 266 rigidly mounted on block 254 bystud-bolts 261,"

and crimping rack 268 pivotally mounted on shaft extensions 269 mounted in bearings 210 bolted to block 254 by studs 261 (Figure 22).

Racks 266 and 268 are of gear rack-like construction similar to racks I06, I01 (Figure29),

having roughened-teeth surfaces 219, 280 (Figure 22) similar to surfaces II8 of racks I06, I01

' (Figure 30). Cams 21I arev welded to the underside at each end of pivotal crimping rack 268 and are adapted to actuate crimping blade 285 welded to leaf 283 hingeably -mounted on pintle 284. Fixed leaf 282 of said hinge mechanism is rigidly mounted on filler 28I and block 256 by stud bolts 281. Z-shaped arm 288 is welded to movable leaf member 283 and is adapted, by means of the tension of coil spring 289 hooked in one end of said arm 288 by loop 29I and attached by a loop to pin 290 mounted on filler 28I, to actuate said movable leaf 283 and said blade 285 from a substantially depending vertical position as illustrated in Figure 24 upward through an arc of substantially 30 to a position as illustrated in Figure 22, The upward movement of leaf 283 and blade 285 is limited by bolt 292 screwed through arm 238 by threads 294, adapted to contact fixed leaf 282 and being held in adjusted position by lock nut 293.

Tapered extension 286 extends upward at an angle of approximately from blade 205 and is adapted for insertion into the angle of approximately formed by the crimping surfaces of racks 266, 268 (illustrated in Figure 22). As blade 285 is moved toward said angle of said racks, extension 286 strikes one surface of the upper or open end of receptacles l8 and, in cooperation with surfaces 219 of rack 266 moving in opposed relation to said blade 285, closes the ends of said receptacles, subsequent to which,

it cooperates with rack 266 and pivotal rack 268 in folding (Figure 23) and crimping (Figure 24) said uppermost ends of receptacles I8. As rack 268 is pivoted in counter-clockwise direction (Figure 23) cams 21I strike blade 285 forcing said blade downward and out from the angle between opposing teeth surfaces of racks 266 and 268, in timed relation to the closing of said angle between said rack surfaces. Shaft 269 is actuated by means of arms 212 rigidly mounted thereon by pins 213 (Figure 6), arms 212 .being pivotally mounted by pins 218 in clevises 211 mounted on connecting rods 214 by sleeve 215 and lock nut 216 (Figure 22). Connecting rods 214 are actuated by means hereinafter described.

Blocks 254, carrying racks 266, 268 and blocks 256, carrying blade 285, are slideably mounted on horizontal rods 255 rigidly mounted equidistant from the ends thereof in blocks 231 by pins 265 (Figure 20). Blocks 231 are rigidly mounted by pins 26I on vertical rods 236, adapted to move vertically in bearings 235 mounted by bolts 2I6 Coil springs 234 dis-' posed around rods 236 are seated in bearings 235- to' frame I (Figure 7A).

and are adapted to act as buffers when blocks 231 mounted on rods 236 are lowered to point'of contact with bearings 235.

Blocks 254 and 256 are slideably mounted at opposite ends of horizontal rods 255 and aremoved along said rods toward blocks 231, by means of links 252, 253, pivotally-mounted by shoulder bolts 259, 260, to said sliding blocks, said links also being pivotally mountedby pinsf251 

